Examining of the effects of aerobic dance and step dance exercises on some hematological parameters and blood lipids
Keywords:
Aerobic Dance, Step Dance, Blood Lipids, Hematological Parameters, Aerobic ExerciseAbstract
The aim of the study was to examine the the effects of aerobic and step dance exercises on hematological and blood lipids parameters. 32 university students were voluntarily participated in this study. They were randomly assigned to aerobic dance (N=16) and step dances (N=16). All groups were participated an hour aerobic or step dance exercise session 2 times in a week during 3 months. Wilcoxon Sign test was used to analyze pretest and posttest results of variables. As results, significant differences were found in the pre- and post-intervention scores for triglycerides (TC), red blood cell (RBC), and hematocrit (HCT) in Step dance group. Although there were decreases in triglycerides levels for both aerobic dance and step dance groups, only significant reduction was found in step dance group. Step dance exercises was better than aerobic dance in terms of increasing RBC and decreasing cholesterol, low density lipoproteins (LDL) cholesterol level. Aerobic dance exercises were better than step dance in terms of increasing high density lipoproteins (HDL). Moreover, when comparing the level of decreasing of Hemoglobin (HGB) significantly, aerobic dance group were better than step dance group. HCT increased significantly more in step dance group as compared with aerobic dance group. Step dance cause more increment than aerobic dance in terms of platetes (PLT) level. The data of this study indicates that step dance is more effective than aerobic dance in terms of decreasing LDL cholesterol, triglycerides and cholesterol for university students.
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Akdur, H., Sözen. A.B., Yiğit, Z., Balota, N., Güven, Ö. (2007). The effect of walking and step aerobic exercise on physical fitness parameters in obese women. İstanbul Tıp Fakültesi Dergisi, 70(3), 64-69.
Apostolidis, N., Bogdanis, G. C., Kostopoulos, N., Souglis, A., Papadopoulos, C. (2014). Changes in the Lipid Profile of Elite Basketball and Soccer Players After a Match. Research in Sports Medicine, 22(1), 100-110.
Arnarson, A., Ramel, A., Geirsdottir, O. G., Jonsson, P. V., Thorsdottir, I. (2014). Changes in body composition and use of blood cholesterol lowering drugs predict changes in blood lipids during 12 weeks of resistance exercise training in old adults. Aging clinical and experimental research, 26(3), 287-292.
Astrand, P.O., Rodalf, K. (1986). Textbook of Work Physiology Physiological Bases of Exercise. New York: McGraw-Hill Book Company.
Choudhary, S., Narwal, R. K. (2014). Effect of aerobic exercise on the blood lipid profile in young adults. Indian Journal of Physiotherapy and Occupational Therapy-An International Journal, 8(2), 212-217.
Çakmakci, E. (2009). Effects of camp term on some he- matological parameters in male taekwondoers. Nigde University Journal of Physical Education and Sport Sciences, 3(1), 21-29
Çakmakçı, E., Sanioğlu, A., Vatansev, H., Marakoğlu, K. (2010). The effects of 8-week step-aerobic exercise on the body composition and hematologic parameters in the obese and overweight females. Ovidius University Annals, Series Physical Education and Sport / Science, Movement and Health., Issue 2 suppl., 808-814.
Çolakoğlu, F., Şenel, Ö. (2003). Sekiz haftalık aerobik egzersiz programının sedanter orta yaşlı bayanların vücut kompozisyonu ve kan lipidleri üzerindeki etkileri. Ankara Üniversitesi Beden Eğitimi ve Spor Bilimleri Dergisi, 1(1), 56-61.
Davis, J. F., Vidyasagar, S., Maiya, G. A. (2014). Effect of eight weeks of walking on high density lipoprotein cholesterol. Indian Journal of Physiotherapy and Occupational Therapy-An International Journal, 8(3), 176-181.
Durstine, J.L., Grandjean, P.W., Davis, P.G., Ferguson, M.A., Alderson, N.L., DuBose, K.D. (2001). Blood lipid and lipoprotein adaptations to exercise: a quantitative analysis. Sports Med, 31(15), 1033-1062.
Erdemir, I., Okmen, A. S., Savucu, Y. (2013). Effects of 6 months of training prior to a major competition on hematological and biochemical parameters in young elite judoka. Australian Journal of Basic Applied Sciences, 7(13), 257-263.
Farooque, I., Singhal, S., Aslam, M., & Khan, J. A. (2014). Lipid profile ın sports persons playing different sports. National Journal of Integrated Research in Medicine, 5(1), 13-16.
Fathei, M. (2014). Response of lipid biomarkers to four weeks aerobic training in active and inactive men. Today Science Journal of Humanity, 2(1), 11-16.
Findikoglu, G., Kilic-Toprak, E., Kilic-Erkek, O., Senol, H., Bor-Kucukatay, M. (2014). Acute effects of continuous and intermittent aerobic exercises on hemorheological parameters: A pilot study. Biorheology. Doi: 10.3233/BIR-1414012.
Gnanou, J., Caszo, B., Khalin, I., Leong, S., Knight, V. F., Bidin, M. Z. B. (2014). The effect of 6-weeks military training on blood hematological parameters in untrained recruits in a military university. Medicine Science, 3(3), 1479-1490.
Godara, H.L., Bishnoi, C. (2013). Effect of aerobic training on percentage of body fat, total cholesterol and hdl-c among obese children. Journal of Sports and Physical Education, 1(2), 46-52.
Göksu, Ö.C., Harutoğlu, H., Yiğit, Z. (2003). Sedanter kişilere uygulanan 10 haftalık egzersiz programının fiziksel uygunluk ve kan parametrelerine etkisi. İ.Ü. Spor Bilimleri Dergisi, 11(3), 18-23.
Gunay, M., Tamer, K., Cicioglu, I. (2006). Spor fizyolojisi ve performans ölçümü. Ankara: Gazi Kitabevi, Baran Ofset.
Guo. W., Kawano, H., Piao, L., Itoh, N., Node, K., Satoi, T. (2011). Effects of aerobic exercise on lipid profiles and high molecular weight adiponectin in Japanese workers. Intern Med., 50(5), 389-395.
Guyton, C., Hail, J. (2000). Textbook of Medical Physiology (11th. Edition). Philadelphia: WB Saunders.
Ha, C.H., So, W.Y. (2012). Effects of combined exercise training on body composition and metabolic syndrome factors. Iran J Public Health, 41(8), 20–26.: WB Saunders
Hallage, T., Krause, M. P., Haile, L., Miculis, C. P., Nagle, E. F., Reis, R. S., Da Silva, S. G. (2010). The effects of 12 weeks of step aerobics training on functional fitness of elderly women. The Journal of Strength & Conditioning Research, 24(8), 2261-2266.
Hammouda, O., Chtourou, H., Chaouachi, A., Chahed, H., Ferchichi, S., Kallel, C., Chamari, K., Souissi, N. (2012). Effect of short-term maximal exercise on biochemical markers of muscle damage, total antioxidant status, and homocysteine levels in football players. Asian journal of sports medicine, 3(4), 239-246.
Hazar, S., Koç, M., Hazar, M. (2010). The effect of run and walk exercise programme on blood lipids and chronic inflammation in sedentary males with metabolic syndrome. British Journal of Sports Medicine, 44(1). doi:10.1136/bjsm.2010.078725.78.
Hu, M., Finni, T., Sedliak, M., Zhou, W., Alen, M., Cheng, S. (2008). Seasonal variation of red blood cell variables in physically ınactive men: effects of strength training.
Itagi, V., Veena, H. C., Patil, R. S. (2014). Effect of treadmill exercise on blood parameters of healthy population. International Journal of Physiology, 2(2), 95-98.
İbiş, S., Hazar, S., Gökdemir, K. (2010). Acute effect of hematological parameters on aerobic and anaerobic exercise, International Journal of Human Comparison of some Respiration and Blood Sciences, 7(1), 70-82.
Jothi, K., Rajavel, T., Chandraleka, K. (2013). Effect of varied aerobic exercise on selected blood parameters among hockey players. Online International Interdisciplinary Research Journal, 3(4), 81-88.
Karakoc, Y., Duzova, H., Polat, A., Emre, M.H., Arabaci, I. (2005). Effect of training period on haemorheological variables in regularly trained footballers. Br J Sports Med, 39(2), 1-4.
Kelley, G.A., Kelley, S.N. (2007). Effects of aerobic exercise on lipids and lipoproteins in adults with type 2 diabetes: a meta- analysis of randomized-controlled trials. Public Health, 121(9), 643-655.
King, A.C., Haskell, W.L., Young, D.R., Oka, R.K., Stefanick, M.L. (1995). Long-term effects of varying intensities and formats of physical activity on participation rates, fitness, and lipoproteins in men and women aged 50 to 65 years. Circulation, 91(10), 2596-2604.
Kin, I. A., Koşar, S. N., Korkusuz, F. (2001). Effects of step aerobics and aerobic dancing on serum lipids and lipoproteins. The Journal of sports medicine and physical fitness, 41(3), 380-385.
Koushi, M.H., Mollanovruzib, A., Rashidlamirc, A. (2013). The Effect of wrestling exercise in morning and afternoon on some hematological indices. International Journal of Applied Exercise Physiology, 2(1), 11-17.
Lee, J. Y., Kim, H. L., Jaeran, L. (2013). The effect of korean dance program on climacteric symptoms and blood lipid in rural middle-aged women. International Journal of Bio-Science and Bio-Technology, 5(6), 81-90.
Lemura, L.M., Von Duvillard, S.P., Amdreacci, J., Klebez, J.M., Chelland, S.A., Russo, J. (2000). Lipit and lipoprotein profiles, cardiovascular fitness, body composition and diet during and after resistance, aerobic and combination training in young woman. Eur. Journal Appl. Physiology, 82(5–6), 451-458.
Mann, S., Beedie, C., Jimenez, A. (2014). Differential effects of aerobic exercise, resistance training and combined exercise modalities on cholesterol and the lipid profile: review, synthesis and recommendations. Sports Medicine, 44(2), 211-221.
Marandi, S. M., Abadi, N. G. B., Esfarjani, F., Mojtahedi, H., Ghasemi, G. (2013). Effects of intensity of aerobics on body composition and blood lipid profile in obese/overweight females. International journal of preventive medicine, 4(1), 118-125.
Maria, T. S., de Arruda, M., Portella, D., Vitoria, R. V., Campos, R. G., Salazar, C.M., Carrasco, V. Cossio-Bolanos, M. (2013). Hematological Parameters of Elite Soccer Players during the Competitive Period. Journal of Exercise Physiology Online,16(5), 68-76.
Mavrić, F., Kahrović, I., Muric, B., Radenkovic, O. (2014). The Effects of Regular Physical Exercise on the Human Body. Physical Culture, 68(1), 29-38.
MohammadNajad, Y., Kandi, P., Shahidi, F., MohammadNajad, A., Masoudian, B. (2012). The effect of time of performing a maximal aerobic exercise session on certain blood components in young male athletes. Annals of Biological Research, 3(6), 2708-2712.
Mosher, P. E., Ferguson, M. A., Arnold, R. O. (2005). Lipid and lipoprotein changes in premenstrual women following step aerobic dance training. International journal of sports medicine, 26(8), 669-674.
Najafnia, Y., Bararpour, E., Amirinejahad, B., Nakhaee, H. (2013). Effects of 8-week step aerobic exercise on women’s physiological characteristics, body fat percentage, and quality of life. International Journal of Sport Studies, 3(12), 1335-1341.
Nandhini, P. (2013). Effect of aerobic dance training on maximal oxygen uptake (VO2Max) of college women. International Journal of Innovative Research and Development, 2(6), 823-827.
Narayani, U., Sudhan, P. R. (2010). Effect of aerobic training on percentage of body fat, total cholesterol and HDL-C among obese women. World J Sport Sci, 3(1), 33-36.
Nikic, N., Milenkovic, D. (2013). Efficiency of Step Aerobic Program in Younger Women. Acta medica Medianae, 52(3), 25-34.
Ossanloo, P., Najar, L., & Zafari, A. (2012). The effects of combined training (aerobic dance, step exercise and resistance training) on body fat percents and lipid profiles in sedentary females of AL_ZAHRA University. European Journal of Experimental Biology, 2(5), 1598-1602.
Ossanloo, P., Zafari, A., Najar, L. (2012). The effects of combined training (aerobic dance, step exercise and resistance training) on body composition in sedentary females. Annals of Biological Research, 3(7), 3667-3670.
Ozturk, M. A., Saygin, O., Irez, G. B. (2013). The effects of regular aerobic exercises on blood lipids and some physical fitness parameters of obese boys. Middle-East Journal of Scientific Research, 17(7), 837-841
Parthiban, B., SekarBabu, K., Krishnaswamy, S., Balakrishnan, A. (2011). Physical education and sports sciences influence of walking, jogging and running exercises moderates the selected lipids and lipoproteins on middle aged men. Recent Research in Science and Technology, 3(1), 88-96.
Profil, A. H. (2014). Acute hematological profile response to one session of aerobic and anaerobic exercise among young male kickboxers. Turk J Phys Med Rehab, 60, 92-97.
Rahmaninia F., Rahnama, N., Hojjati, Z. Soltani, B. (2008). Acute effects of aerobic and resistance exercises on serum leptin and risk factors for coronary heart disease in obese females. Sport Sci.Health, 2(3), 118–124.
Ricci, G., Mosatti, M., Vitali, E., Vedovate, M., Zanotti, G. (1988). Effects of exercise on hematologic parameters serum ıron, serum ferritin, red-cell 2,3 diphosphoglycerate and creatine contents and serum erythropoietin in long distance runners during basal training. Acta Haematol., 80(2), 85-98.
Sazvar, A., Mohammadi, M., Nazem, F., Farahpour, N. (2013). The effect of morning aerobic exercise on some hematological parameters in young, active males. Iranian Journal of Health and Physical activity, 4(1), 23-28.
Schiffer, T., Schulte, S., Sperlich, B. (2008). Aerobic dance: health and fitness effects in middle-aged premenopausal women. Journal of Exercise Physiology-online, 11(4), 25-33.
Schumacher, Y. O., Grathwohl, D., Barturen, J. M., Wollenweber, M., Heinrich, L., Schmid, A., Huber, G., Keul, J. (2000). Haemoglobin, haematocrit and red blood cell indices in elite cyclists. Are the control values for blood testing valid?.International journal of sports medicine, 21(5), 380-385.
Seok-Am, Z., Seung-Suk K. (2012). Effect of boxing aerobic dance on body composition, blood component and vascular compliance in obese middle aged women. Journal of the Korea Academia-Industrial cooperation Society, 13(9), 4009-4017.
Shari, M., Aiman, S., Yusof, S. M. (2014). Blood profile alterations in overweight females after aerobic interventions. In Proceedings of the International Colloquium on Sports Science, Exercise, Engineering and Technology. 221-231. Doi: 10.1007/978-981-287-107-7_23
Sofianidis, G., Hatzitaki, V., Douka, S., Grouios, G. (2009). Effect of a 10-Week Traditional Dance Program on Static and Dynamic Balance Control in Elderly Adults. J. Aging Phys. Act, 17(2), 167-180.
Spiropoulos, K., Trakada, G. (2003). Hematologic and Biochemical Laboratory Parameters Before and After A Marathon Race. Lung, 181(2), 89-95.
Tran, Z.V., Weltman, A. (1985). Differential effects of exercise on serum lipid and lipoprotein levels seen with changes in body weight: a meta-analysis. JAMA, 254(7), 919-24.
Trejo-Gutierrez, J. F., Fletcher, G. (2007). Impact of exercise on blood lipids and lipoproteins. Journal of clinical lipidology, 1(3), 175-181.
Wu, H. J., Chen, K. T., Shee, B. W., Chang, H. C., Huang, Y. J., Yang, R. S. (2004). Effects of 24 h ultra-marathon on biochemicalandhematologicalparameters. World Journal of Gastroenterology, 10(18), 2711-2714.
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